Heat Domes and Their Impact

Record-breaking temperatures in the eastern US, Europe, and China are attributed to a phenomenon called a heat dome. This involves a large high-pressure system trapping heat in a region, intensifying the area's temperature.

Understanding Heat Domes

• A heat dome occurs when a massive high-pressure system locks heat over a region, creating a self-reinforcing cycle.
• They can occur anytime but are most hazardous in summer, leading to extensive societal and economic impacts.
• Extreme heat waves are more life-threatening than typical summer heat.

Consequences of Heat Domes

• Wildfires and Droughts: From 1980 to 2024, wildfires caused $147.9 billion in damage, killing 537, while droughts led to $367.6 billion in losses, killing 4,658.
• Heat-Related Deaths: Between 1979 and 2022, over 14,000 Americans died from heat-related causes. In 2022, an estimated 61,672 people died due to heat.
• Economic Impact: Heat domes stress crops such as corn and soybeans, increase electricity demand and prices, and impact transportation and energy production.

Forecasting Heat Domes

• Heat domes are harder to predict than other weather phenomena like the polar vortex or El Niño.
• The Global Atmospheric Angular Momentum (GLAAM) is a key metric in predicting heat domes. Low values indicate potential heat ridges.
• Advanced forecasts are challenging, but tools like statistical analysis of past patterns help improve predictions.

Climate Change and Heat Domes

• Climate change leads to northward migration of heat domes and influences the jet stream, causing it to kink and hold heat domes in place.
• Research on the Arctic warming's impact on the jet stream is ongoing. Some studies show varying impacts.
• Rising global temperatures mean even small increases can make summers feel significantly more severe.

Accurate forecasts with longer lead times are increasingly crucial, as heat-related events are the most lethal weather phenomena globally, with significant human health impacts.